201223021 六、發明說明: 【發明所屬之技術領域】 本發明係關於—種連接器之誤插人防止構造。 【先前技術】 妾器之誤插入防止構造之連接器’有下述專利文獻 、収載者。如圖16、圖17所表示之專利文獻ι所記載之 連接益’該連接器由插座11G、及連接於該插座ug之正規 插頭140所構成。於難11〇之遮蔽殼116之開口邊緣部設 置有决插入防止引導片118,而於正規插頭刚之遮蔽殼146 上形成有凹部148,該凹部148對應於上述誤插入防止引導 片118。而且,當將正規插頭14〇連接於插座ιι〇上時,藉 由誤插入防止引導片118插嵌於凹部148,則可獲得適當之 連接。 田 [先前技術文獻] [專利文獻] 專利文獻1 :日本專利特開2〇〇7_1496〇2號公報 【發明内容】 (發明所欲解決之問題) 然而,專利文獻1所記載之插座110會遇到以下情況:並 非適合該插座11〇之正規插頭140,而是形狀小於正規插頭 140之不適當的非正規插頭進入開口’若此—非正規插頭誤 插入於插座110 ’則有插座110及非正規插頭發生損傷,咬 100131664 3 201223021 兩者發生誤連接之虞。 因此,本發明為了解決上述課題,目的在於提供一種不會 發生非正規插頭誤插入插座的連接器之誤插入防止構造。 (解決問題之手段) 本發明之上述之目的係藉由下述之構成而達成。 (1)種連接器之块插入防止構造,該連接器包含: 插座,其具有大略矩形柱狀之第丨遮蔽殼,該第丨遮蔽殼 係於内部收容第1連接端子、同時形成有插頭插入用之開 口;以及 插頭,其具有大略矩形柱狀之第2遮蔽殼,該第2遮蔽殼 係於内部收容第2連接端子且插人至上述插座之上述第! 遮蔽殼;且 藉由將上述插頭之上述第2遮蔽殼自上述開口插入至上 述插座之第1遮蔽殼,使上述第丨連接端子與上述第2連接 端子電性連接;如此之連接器之誤插入防止構造, 上述插座之上述第i遮蔽殼的寬度方向之兩端部分別具 有:臂’其自固定於上面壁之後端部上之基端部向前方側延 伸;止動壁’其^置於上述臂之自由端部且上述第丨遮蔽殼 的外部向上述第1遮蔽殼内突$,於非正缝職入時,與 該非正規插頭接觸;插頭拾取部,其設置於上述臂之自由端 部’與上述止動壁並列地—體形成,自上述第1遮蔽殼之外 部向上述第丨遮蔽殼内突出’於正規插頭插入時,與該正規 100131664 201223021 插頭接觸 以及孔,其形成於上 處,供上述止動壁 上面壁之靠近上述開口 根據上、": 頭拾取部拖通。 據上逃⑴之構成,當正規插 插頭抵接於插頭拾取部而插入,使時,由於藉由正規 自第1遮蔽殼内後退,故插頭可進一動:孔内向上移動而 適當地連接。 進步插入,插頭與插座可 § #正規插頭插入時, 於2個插頭拾取部,至少非正規㈣無法同時抵接 出之μ ν 成為㈣1遮蔽殼内突 = 非正規插頭之進-步插入,故可防止非正 、 緣人,且可防止插頭與插座之損傷及誤連接。 ():上述⑴之連接器之誤插入防止構造,其中,於上述 J由端部與基端部之間設置有支撐彎曲部,該支撐彎曲 接於形成在上述上㈣上之孔之邊緣⑽可傳遞上述 止動壁之卡止力。 根據上述(2)之構成,由於在臂上形成有支樓彎曲部,故 即便非正規㈣歓而與止動魏接,其貞荷 之邊緣部之支撐彎曲部支撐,負荷並不作用㈣之全U。 藉此,一方面將臂增長而可確保可撓性,一方雨可二止有負 荷作用於止動壁上時的臂之屈曲。 、 (3)如上述(1)或(2)之連接器之誤插入防止構造,其中,獨 立於上述第1遮蔽殼之遮蔽殼本體而形成的上述臂係支撐 固定於上述遮蔽殼本體上。 100131664 5 201223021 根據上述(3)之構成,第1遮蔽殼之遮蔽殼本體可由共通 之模具來製作。先準備不包含臂之遮蔽殼本體、及安裝於遮 蔽殼本體上之臂,藉此,使第1遮蔽殼易於對應臂之有無而 變化。 (4)如上述(1)〜(3)之連接器之誤插入防止構造,其中,上 述臂之自由端部具有蓋部,該蓋部覆蓋於形成在上述上面壁 上之孔。 根據上述(4)之構成,形成於上面壁上之孔由設置於臂之 自由端部之蓋部所覆蓋,故可防止遮蔽性能之降低。 以上已對本發明進行簡潔說明。進而,藉由參照附圖並精 讀以下說明之實施方式(以下稱作「實施形態」),則可進一 步明確本發明之細節。 【實施方式】 以下,參照附圖對本發明之一實施形態進行說明。 如圖1〜圖11所示,本第1實施形態之連接器包含:插 座10,其具有大略矩形柱狀之第1遮蔽殼16,該第1遮蔽 殼16係於内部收容第1連接端子12同時形成有插頭插入用 之開口 14 ;以及正規插頭40,其具有大略矩形柱狀之第2 遮蔽殼46,該第2遮蔽殼46係於内部收容第2連接端子42 且插入至上述插座10之上述第1遮蔽殼16 ;藉由將正規插 頭40之第2遮蔽殼46自開口 14插入至插座10之第1遮蔽 殼16,使第1連接端子12與第2連接端子42電性連接。 100131664 ⑧ 201223021 插座10之第1遮蔽殼16之寬度方向之兩側具有臂18, 該臂18自基端部68向前方側延伸,該基端部68自上面壁 16a之後端部向前方折回並固定。於臂ι8之自由端部 置有止動壁20及插頭拾取部22,該止動壁2〇白 ^ 曰弟1遮蔽 殼16之外部向第1遮蔽殼16内突出、於非正規插頭5〇(參 照圖10、圖Π)插入時與非正規插頭50接觸,該插頭和^取 部22與該止動壁20並列地一體形成且自第1遮蔽殼μ之 外部向第1遮蔽殼16内突出、於正規插頭4〇插入時與,正 規插頭40接觸。 又,於第1遮蔽殼16之上面壁i6a之靠近開口 M處,在 寬度方向之兩端部形成有供止動壁20及插頭拾取部22插\ 之孔24。 插座10之第1遮蔽殼16係藉由將金屬板沖壓加工為既定 形狀’並將其彎折為大略矩形柱狀’且將兩端部進行續尾样 結合而形成。插座10之第1遮蔽殼16之前方侧具有插頭插 入用之開口 14’後方側收容有包含第1連接端子12之外軍 26(參照圖8、圖9)。 各臂18係自第1遮蔽殼16之後方側端部延伸,且自固定 於上面壁之後端部之基端部68向前方側彎折加工而受到懸 臂支撐,從而可產生彈性。於臂18之自由端部66,一體形 成止動壁20以及插頭拾取部22 ’該止動壁20貫通於第j 遮蔽殼16之上面壁16a而向第1遮蔽殼16内突出,該插頭 100131664 201223021 拾取部22定位成與該止動壁2〇並列。 止動壁2 0與臂丨8呈直角方向而彎折形成。又,插頭拾取 部22具有傾斜面22a,該傾斜面22a隨著向後方側行進而 下降,該傾斜面22a為插頭拾取面。 該等止動壁20與插頭拾取部22,於未連接正規插頭仙 之狀態下,貫通於形成在第丨遮蔽殼16之上面壁—上的 孔24 ’向第1遮蔽殼16内突出。 插頭拾取部22係位於第!遮蔽殼16内之寬度方向之兩端 ”止動土 2G相比位於寬度方向之更外側,當正規插頭 插入至插座1G時’抵接於正規插頭4()之第2連接端子42。 插頭拾取部22與止動壁2G相比位於更靠近開口 14端之 側,當正規插頭40插入至插座1〇時,先於止動壁2〇而與 正規插頭40之第2遮蔽殼46抵接。 —本實施㈣之插座1G中’下表面與f路基板接觸並[ 疋’從而使第i連接端子12與電路基板3〇之電路電性連接 二:規插頭40設置於電子機器連接用之電線之端部 或直接设置於電子機器上。 Γ 頭4G與插座1G之連接作業進行說^ 右正規插頭40插入至插座10之開口 14,則正規插 之第2遮蔽殼46抵接於插頭拾取部22。若 -進-步播入而對插頭拾取部22作用起插:二3 以插頭拾取部22及止動㈣於孔24内向上移動,而 100131664 ⑧ 201223021 1遮蔽殼16内向外部後退之方式,臂18彎曲而發生彈性形 變。藉此’第1遮蔽殼16内成為止動壁20不突出之狀態, 而可將正規插頭40進一步插入。 如上所述,與位於開口 14兩側接觸2個插頭拾取部22 之構’成的正規插頭40係如圖7及圖9所示,被適當地插入 至插座10,使兩個連接端子42、12電性連接。 作為本實施形態之連接器,可採用例如高解析度多媒體介 面(HDMI ’ High Definition Multimedia Interface)Type-D(亦稱 作HDMI-Micro)用插頭作為正規插頭4〇。 相對於此’作為與本實施形態之插座10對應之非正規插 頭50 ’可例如與HDMI用插頭相比,第2遮蔽殼46之寬度 較短’第2遮蔽殼46之寬度短於插頭拾取部22間之距離的 小型數位相機用通用序列匯流排(USB,Universal Serial Bus) 插頭。 若要將如上所述之小型非正規插頭5〇插入至插座l〇 ’則 由於非正規插頭50之第2遮蔽殼56與正規插頭40之第2 遮蔽殼46相比寬度較短,故第2遮蔽殼56無法同時抵接於 雙方之插頭拾取部22。 因此’若非正規插頭50之第2遮蔽殼56僅抵接於一侧之 插頭拾取部22,則僅一側之止動壁20於孔24内向上移動 從而向第1遮蔽殼16外後退,而另一側之止動壁2〇仍然處 於向第1遮蔽殼16内突出之狀態。因此,即便想將非正規 100131664 9 201223021 插頭50進—步插入’如圖11所示’第1遮蔽殼抵接於另一 侧之止動壁20,可阻止進一步之插入,而作業者可識別出 誤插入。 又’苦非正規插頭50以未抵接於兩侧之插頭拾取部22 之狀‘邊而插入,則非正規插頭50直接抵接於兩側之止動壁 20,而阻止進一步之插入。 如上所述,根據上述實施形態之構成,由於不適當的非正 1 5 〇不會完全地插入至插座1 〇,故可防止非正規插頭 50與插座10之損傷及誤連接。 甘^ /、一人’對本發明之第2實施形態進行說明。 再者’對於與上述第1實施形態之插座1〇同一之構件, 其被標註同—元件符號且省略其重複之說明。 ° 〜圖14所示,本第2實施形態之插座60之第1 遮蔽殼62於舍 68 u _ 見度方向之兩侧具有臂64,該臂64自基端部 °方側延伸’該基端部68自上面壁62a之後端部向前 方折回並固定。 又°於臂64之自由端部66設置有止動壁20及 插碩拾取部22, 5玄止動壁20貫通於上面壁62a之孔24而 向第1遮蔽μ η 叹内(連接器嵌合空間61)突出、且於非正規 插頭50(參照圖 、、、岡ΐυ、圖11)插入時與非正規插頭50接觸,該 插頭拾取部22 0 一该止動壁2〇並列地一體形成且自第1遮蔽 设62之外部向笛 乐1遮蔽殼62内突出、於正規插頭40插入 時與該正規插頭40接觸。 !〇〇131664 201223021 進而於I 64之自由端部66與基端部68之間設置有支 樓彎曲部72,該支撐彎曲部72抵接於上面壁62a之孔24 的孔邊緣部7G(參照圖13)從而可傳遞止動壁2()之卡止力。 第1遮蔽λ又62具有側板部65,該側板部65自兩側 壁62b之後端部向前方折回。於側板部&之内側形成有彈 性卡合板86 ’該彈性卡合板%貫通於兩側壁伽而與插入 至連接器喪合空間61内之正規插頭4〇卡合;於側板部^ 之下邊緣垂設朝向電路基板突^之基板連接部%。於本實 施形態中,基板連接部96成為框片&,且垂設於侧板部65 之下邊緣。基板連接部96焊接@定於未圖示之電路基板之 通孔上。於側板部65之彈性卡合板86之前方开彡成有卡止邊 緣部90 ’該卡止邊緣部9〇與第丨遮蔽殼62之卡止爪88卡 止。 於本實施形態之插座60中,當正規插頭4〇插入至連接器 嵌合空間61時,由於藉由正規插頭4〇抵接於插頭拾取部 22並插入,從而使止動壁2〇於孔24内向上移動而自第i 遮蔽殼62後退,故可將正規插頭4〇進一步插入,且可將正 規插頭40與插座60適當地連接。 又,如圖14所示,當非正規插頭50插入時,由於非正規 插頭50無法同時抵接於2個插頭拾取部22,至少1個止動 壁20為向連接器嵌合空間61突出之狀態,可阻止非正規插 頭50之進一步之插入,故可防止非正規插頭5〇之誤插入, 100131664 11 201223021 且可防止非正規插頭50與插座⑼之損傷及誤插入。 而且由於在# 64上形成有支撐彎曲部,故若非正規 插頭5〇插入並抵接於止動壁2〇,則其負荷由抵接於孔邊緣 部之支撐彎曲部72支稽,非正規插頭%之負荷幾乎不 會作用於支撐彎曲部72之更後方部分之f 64。即,由於負 荷並不作用於臂64之全長,故—方面臂料可確保長而具可 挽性之狀態,—方面當負荷作用於止動壁2G上時則可防止 臂64之屈曲。 因此,根據本第2實施形態之連接器之誤插入防止構造, 可確實地防止不適合於插座6〇之非正規_ %之誤插人, 同時可降紅規_ 4〇之插人力,且提高操作性。 :本實施形態之插座60中之臂64的自由端部%構成 ’該蓋部74對形成於上面壁必上之孔μ予以覆 =在臂64設置蓋部74’穿設於上面壁仏上之孔% 之自由端部66覆蓋’故其可防止遮蔽性能之降低。 有臂64系獨立於第1遮敝殼62之遮蔽殼本體62A而形成 之變形例的分解立體圖。 而,占斤不之第1遮蔽设62中,獨立於遮蔽殼本體62A 〉之臂64被遮蔽殼本體62A所支翻定。在該情形 64被設置於卡合支撺構件78 係對導電am θ 找構件78 y仃孟屬板加工而製成。卡合支撐構件78形 100131664 201223021 對平行之支撐構件側板部 臂64形成於該後部連接 成為平面視大略字形狀,其中一 80連接於後部連接板82之兩端。 板82上。 於支撐構件侧板部80中,於沖壓為〕字狀之支標構件側 板部⑽之_形成有彈性卡合板86,該雜卡合板8 通於遮蔽殼本體62A之卡止孔84而插人至連接器嵌合空間 61之正規插頭而4G卡止。於切構件側板㈣之彈^ 合板86之前方形成卡止邊緣部9〇,該卡止邊緣部知 蔽殼本體62A之卡止爪88相卡止。夾著彈性卡合板⑽而 於卡止邊緣部90之相反側(後端側)形成卡止凸部%,該卡 止凸部94卡合於遮蔽殼本體62八之卡止凹冑92。卡止㈣ 94藉由沖壓而形成為凸狀’並卡止於凹狀 : 凹部92。 卞止 又’於支撐構件側板部8G垂設朝向電路基板突出之基板 連接部96。於本實施形態中,基板連接部%為框片狀,且 垂設於支撐構件側板部8G之下邊緣。基板連接部%焊接固 定於未圖示之電路基板之通孔上。 例如,於數位相機等之連接器中,由於有多功能USB誤 後合之可能性,故需要賦予防止上述情況之誤插入防止構 造。另一方面,於行動電話等之連接器中 多功能USB誤嵌合之狀況,故不需要設 之臂。如上所述當需要臂者與不需要臂者 ’由於不會發生如 置用以防止誤插入 同時存在之情形, 100131664 201223021 則對於第1遮蔽殼必須分別製作具備有臂之遮蔽殼本體與 不具備有臂之遮蔽殼本體。 相對於此,如本實施形態,如將臂64設置於獨立於遮蔽 殼本體62A之卡合支撐構件78而構成時,則藉由準備不包 含臂64之遮蔽殼本體62A、及安裝於遮蔽殼本體62人上之 卡合支撐構件78,則可容易對應臂64之有無之變化。遮蔽 殼本體62A可由共通之模具製作,從而可抑制製造成本之 上升。 再者,本發明並不受上述實施形態所限定,其可適當地進 行變形、改良等。另外,只要可達成本發明,則上述之實施 形態中之各構成要素之材質、形狀、尺寸、數量、及配置場 所等均可為任意者,並不受限定。 再者’本申請案係基於2010年9月3日申請之日本專利 申請案(特願2010-198298)及2011年7月12日申請之曰本 專利申請案(特願2011-154126)者,其内容以參照之形式併 入本文中。 (產業上之可利用性) 如上所述,根據本發明之連接器之誤插入防止構造,其可 確貫地防止不適合於插座之非正規插頭之誤插入,且可防止 插頭與插座之損傷及誤連接。 【圖式簡單說明】 圖1係本發明之第1實施形態之插座的立體圖。 100131664 14 201223021 圖2係圖1之插座自插頭插入側觀察的前視圖。 圖3係圖1之插座的側視圖。 圖4係圖1之插座的俯視圖。 圖5係圖1之插座的A-A剖面圖。 圖6係圖5的B部放大圖。 圖7係正規插頭與插座結合狀態的立體圖。 圖8係正規插頭抵接於插座之插頭拾取部狀態的主要部 分剖面圖。 圖9係正規插頭與插座結合狀態的主要部分剖面圖。 圖10係非正規插頭抵接於插座之止動壁狀態的立體圖。 圖11係非正規插頭抵接於插座之止動壁之狀態的主要部 分剖面圖。 圖12係本發明之第2實施形態之插座的立體圖。 圖13係圖12所示之第1遮蔽殼之臂部分的剖面圖。 圖14係圖13所示之臂部分之主要部分放大圖。 圖15係臂獨立於遮蔽殼本體而形成之變形例的分解立體 圖。 圖16係習知之插座的立體圖。 圖17係與圖16之插座結合之插頭的立體圖。 【主要元件符號說明】 10 插座 12 第1連接端子 100131664 15 開口 第1遮蔽殼 上面壁 臂 止動壁 插頭拾取部 傾斜面 孔 外罩 電路基板 正規插頭 第2連接端子 第2遮蔽殼 非正規插頭 第2遮蔽殼 插座 連接器嵌合空間 第1遮蔽殼 上面壁 兩側壁 遮蔽殼本體 臂 16 ⑧ 201223021 65 側板部 66 自由端部 68 基端部 70 孔邊緣部 72 支撐彎曲部 74 蓋部 78 卡合支撐構件 80 支撐構件側板部 82 後部連接板 84 卡止孔 86 彈性卡合板 88 卡止爪 90 卡止邊緣部 92 卡止凹部 94 卡止凸部 96 基板連接部 110 插座 116 遮紅殼 118 誤插入防止引導片 140 正規插頭 146 遮敝_殼 148 凹部 100131664 17201223021 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a mis-insertion preventing structure of a connector. [Prior Art] The connector for the erroneous insertion preventing structure of the ’ device has the following patent documents and the following. The connector shown in the patent document 1 shown in Figs. 16 and 17 is composed of a socket 11G and a regular plug 140 connected to the socket ug. A blind insertion prevention guide piece 118 is provided at the opening edge portion of the shield case 116 of the hard cover 11, and a concave portion 148 is formed on the shield case 146 of the regular plug, and the concave portion 148 corresponds to the above-described erroneous insertion preventing guide piece 118. Further, when the regular plug 14A is attached to the socket ι, the erroneous insertion preventing guide piece 118 is inserted into the concave portion 148, and an appropriate connection can be obtained. [PRIOR ART DOCUMENT] [Patent Document 1] Japanese Patent Laid-Open Publication No. JP-A No. Hei. No. Hei. No. Hei. In the following cases: it is not suitable for the regular plug 140 of the socket 11, but an improper informal plug opening shape that is smaller than the regular plug 140. If this is the case, the irregular plug is erroneously inserted into the socket 110, and there is a socket 110 and The normal plug is damaged, biting 100131664 3 201223021 The two are misconnected. Accordingly, the present invention has been made to solve the above problems, and an object of the invention is to provide an erroneous insertion preventing structure of a connector in which an irregular plug is erroneously inserted into a socket. (Means for Solving the Problem) The above object of the present invention is achieved by the following constitution. (1) A block insertion preventing structure for a connector, the connector comprising: a socket having a substantially rectangular columnar second shielding case, the third shielding case being internally housed in the first connection terminal and having a plug insertion And an opening having a second rectangular shielding case having a substantially rectangular column shape, wherein the second shielding case is configured to receive the second connection terminal therein and to be inserted into the socket; And inserting the second shielding case of the plug into the first shielding case of the socket from the opening, electrically connecting the second connection terminal and the second connection terminal; An insertion preventing structure, wherein both ends of the ith shielding case of the socket in the width direction have an arm end that extends from the base end portion of the end portion fixed to the upper wall toward the front side; the stopper wall is disposed The outer end of the arm and the outer portion of the second shielding case protrude into the first shielding case, and is in contact with the irregular plug when the non-slit position is engaged; the plug picking portion is provided freely on the arm The end portion is formed in parallel with the stopper wall, and protrudes from the outside of the first shield shell into the second shield shell. When the regular plug is inserted, the plug is in contact with the regular 100131664 201223021 plug and is formed in the hole. Above, the upper wall of the above-mentioned stopper wall is close to the above opening according to the upper, ": head picking portion. According to the configuration of the escape (1), when the regular plug is inserted into the plug pick-up portion, the plug can be moved by being normally retracted from the first shield case: the inside of the hole is moved upward and is appropriately connected. Progressive insertion, plug and socket can be § # regular plug insertion, in the two plug picking parts, at least irregular (four) can not simultaneously contact the μ ν become (four) 1 shielding shell internal protrusion = irregular plug into the step - step insertion, so It can prevent non-positive and mortal people, and can prevent damage and misconnection of plug and socket. (): The erroneous insertion preventing structure of the connector of the above (1), wherein a support bending portion is provided between the end portion and the base end portion, and the support is bent to be connected to an edge (10) of the hole formed on the upper (four) The locking force of the above-mentioned stopping wall can be transmitted. According to the configuration of the above (2), since the bent portion of the branch is formed on the arm, even if it is irregular (four) and is connected to the stop, the support portion of the edge portion of the load is supported, and the load does not act (4). Full U. Thereby, on the one hand, the arm is increased to ensure flexibility, and one side of the rain can be used to buck the arm when the load acts on the stopper wall. (3) The erroneous insertion preventing structure of the connector according to the above (1) or (2), wherein the arm support formed independently of the shield case body of the first shield case is fixed to the shield case body. 100131664 5 201223021 According to the configuration of the above (3), the shield case body of the first shield case can be made of a common mold. First, a shield case body that does not include an arm and an arm that is attached to the cover case body are prepared, whereby the first shield case is easily changed in accordance with the presence or absence of the arm. (4) The erroneous insertion preventing structure of the connector according to the above (1) to (3), wherein the free end portion of the arm has a lid portion that covers the hole formed in the upper wall. According to the above configuration (4), the hole formed in the upper wall is covered by the cover portion provided at the free end portion of the arm, so that the reduction in the shielding performance can be prevented. The present invention has been briefly described above. Further, the details of the present invention can be further clarified by referring to the drawings and the embodiments described below (hereinafter referred to as "embodiments"). [Embodiment] Hereinafter, an embodiment of the present invention will be described with reference to the drawings. As shown in FIG. 1 to FIG. 11, the connector according to the first embodiment includes a socket 10 having a first rectangular casing 16 having a substantially rectangular column shape, and the first shielding casing 16 is provided with a first connecting terminal 12 therein. At the same time, an opening 14 for plug insertion is formed; and a regular plug 40 having a second rectangular shielding case 46 having a substantially rectangular column shape, the second shielding case 46 is internally housed in the second connection terminal 42 and inserted into the socket 10 The first shield case 16 is electrically inserted into the first shield case 16 of the socket 10 from the opening 14 by the second shield case 46 of the regular plug 40, thereby electrically connecting the first connection terminal 12 and the second connection terminal 42. 100131664 8 201223021 The first shielding case 16 of the socket 10 has arms 18 on both sides in the width direction thereof, and the arm 18 extends from the base end portion 68 toward the front side, and the base end portion 68 is folded back toward the front from the rear end portion of the upper wall 16a. fixed. A stopper wall 20 and a plug picking portion 22 are disposed at the free end of the arm ι8, and the stopper wall 2 is white. The outer portion of the shield shell 16 protrudes into the first shield shell 16 and is disposed on the irregular plug 5〇. (refer to FIG. 10 and FIG. Π), the plug and the accommodating portion 22 are integrally formed in parallel with the stopper wall 20 and are inserted into the first shielding case 16 from the outside of the first shielding case μ (see FIG. 10 and FIG. The protrusion is in contact with the regular plug 40 when the regular plug 4 is inserted. Further, at the opening M of the upper wall i6a of the first shield case 16, a hole 24 for inserting the stopper wall 20 and the plug picking portion 22 is formed at both end portions in the width direction. The first shield case 16 of the socket 10 is formed by press-working a metal plate into a predetermined shape 'and bending it into a substantially rectangular column shape' and combining the both end portions. The front side of the first shielding case 16 of the socket 10 has an opening for insertion of the plug 14'. The rear side of the first shielding case 16 is accommodated with a military unit 26 including the first connection terminal 12 (see Figs. 8 and 9). Each of the arms 18 extends from the rear side end portion of the first shield case 16 and is bent from the base end portion 68 of the end portion fixed to the upper wall and supported by the cantilever, thereby generating elasticity. At the free end portion 66 of the arm 18, the stopper wall 20 and the plug picking portion 22' are integrally formed. The stopper wall 20 penetrates the upper wall 16a of the jth shielding shell 16 and protrudes into the first shielding shell 16, the plug 100131664 201223021 The pickup portion 22 is positioned to be juxtaposed with the stopper wall 2'. The stopper wall 20 is bent in a right angle direction with the armature 8 and formed. Further, the plug pick-up portion 22 has an inclined surface 22a which descends as it travels toward the rear side, and the inclined surface 22a is a plug pick-up surface. The stopper wall 20 and the plug pick-up portion 22 protrude into the first shield case 16 through the hole 24' formed in the upper wall of the second shield case 16 in a state where the regular plug is not connected. The plug picking unit 22 is located at the first! Both ends in the width direction of the shield case 16 are located outside the width direction of the stopper soil 2G, and abuts against the second connection terminal 42 of the regular plug 4 () when the regular plug is inserted into the socket 1G. 22 is located closer to the end of the opening 14 than the stopper wall 2G, and when the regular plug 40 is inserted into the socket 1 ,, it abuts against the second shielding case 46 of the regular plug 40 before the stopper wall 2 。. In the socket 1G of the fourth embodiment of the present invention, the lower surface is in contact with the f-channel substrate and [疋' is such that the ith connection terminal 12 and the circuit board 3 are electrically connected to each other: the gauge plug 40 is disposed on the wire for connecting the electronic device. The end portion is directly disposed on the electronic device. 连接 The connection between the head 4G and the socket 1G is performed. When the right regular plug 40 is inserted into the opening 14 of the socket 10, the second shield case 46 that is normally inserted abuts against the plug picking portion 22. If the step-by-step broadcast is performed, the plug picking portion 22 acts as a plug: 2, 3, the plug picking portion 22 and the stop (4) move upward in the hole 24, and the 100131664 8 201223021 1 shields the shell 16 to retreat to the outside. The arm 18 is bent and elastically deformed. The inside of the casing 16 is in a state where the stopper wall 20 does not protrude, and the regular plug 40 can be further inserted. As described above, the regular plug 40 which is formed in contact with the two plug picking portions 22 on both sides of the opening 14 is as shown in the figure. 7 and 9 are appropriately inserted into the socket 10 to electrically connect the two connection terminals 42 and 12. As the connector of the embodiment, for example, a high-resolution multimedia interface (HDMI ' High Definition Multimedia Interface) can be used. The Type-D (also referred to as HDMI-Micro) plug is used as a regular plug 4A. The "non-regular plug 50' corresponding to the socket 10 of the present embodiment can be compared with the HDMI plug, for example, the second The width of the shielding case 46 is shorter. The width of the second shielding case 46 is shorter than the distance between the plug picking portions 22. The universal serial bus (USB) plug for the compact digital camera. To be small as described above When the non-regular plug 5 is inserted into the socket 10', since the second shielding case 56 of the irregular plug 50 has a shorter width than the second shielding case 46 of the regular plug 40, the second shielding case 56 cannot be simultaneously abutted. Insertion of both sides Therefore, if the second shielding case 56 of the irregular plug 50 abuts only the plug picking portion 22 on one side, only one side of the stopper wall 20 moves upward in the hole 24 to the first shielding case 16 The outer side is retracted, and the other side of the stopper wall 2 is still in a state of protruding into the first shielding case 16. Therefore, even if it is desired to insert the informal 100131664 9 201223021 plug 50 into the 'as shown in FIG. 11' 1 The shield shell abuts against the stop wall 20 on the other side to prevent further insertion, and the operator can recognize the erroneous insertion. Further, the bite irregular plug 50 is inserted in the shape of the plug picking portion 22 which is not abutted on both sides, and the irregular plug 50 directly abuts against the stopper walls 20 on both sides, thereby preventing further insertion. As described above, according to the configuration of the above embodiment, since the improper non-positive cymbal is not completely inserted into the socket 1, the damage and misconnection of the irregular plug 50 and the socket 10 can be prevented. The second embodiment of the present invention will be described. The same components as those of the above-described first embodiment are denoted by the same reference numerals, and the description thereof will not be repeated. As shown in Fig. 14, the first shielding case 62 of the socket 60 of the second embodiment has arms 64 on both sides of the viewing direction, and the arms 64 extend from the base end side. The end portion 68 is folded back and fixed forward from the rear end portion of the upper wall 62a. Further, the free end portion 66 of the arm 64 is provided with a stopper wall 20 and a detaching pickup portion 22, and the sinusoidal stopper wall 20 penetrates through the hole 24 of the upper wall 62a to sigh into the first shielding layer η (the connector is embedded The joint space 61) protrudes and comes into contact with the irregular plug 50 when the irregular plug 50 (see FIG., FIG., FIG. 11) is inserted, and the plug picking portion 22 0 is integrally formed with the stopper wall 2 〇 in parallel. And protruding from the outside of the first shielding device 62 into the inside of the flute 1 shielding case 62, and contacting the regular plug 40 when the regular plug 40 is inserted. 〇〇131664 201223021 Further, a branch bending portion 72 is provided between the free end portion 66 of the I 64 and the base end portion 68, and the support bending portion 72 abuts against the hole edge portion 7G of the hole 24 of the upper wall 62a (refer to Figure 13) thus allows the engagement force of the stop wall 2 () to be transmitted. The first shielding λ 62 has a side plate portion 65 which is folded back toward the front from the rear end portions of the side walls 62b. An elastic engaging plate 86' is formed on the inner side of the side plate portion &; the elastic engaging plate is inserted through the two side walls to engage with the regular plug 4〇 inserted into the connector funnel space 61; at the lower edge of the side plate portion The substrate connection portion % facing the circuit board protrudes. In the present embodiment, the board connecting portion 96 is a frame piece & and is suspended from the lower edge of the side plate portion 65. The board connecting portion 96 is soldered to a through hole of a circuit board (not shown). The locking edge portion 90' is locked in the front side of the elastic engaging plate 86 of the side plate portion 65. The locking edge portion 9' is locked with the locking claw 88 of the second shielding case 62. In the socket 60 of the present embodiment, when the regular plug 4A is inserted into the connector fitting space 61, since the regular plug 4A abuts against the plug picking portion 22 and is inserted, the stopper wall 2 is placed in the hole. The inner portion 24 is moved upward and retracted from the i-th shield case 62, so that the regular plug 4〇 can be further inserted, and the regular plug 40 and the socket 60 can be appropriately connected. Further, as shown in FIG. 14, when the irregular plug 50 is inserted, since the irregular plug 50 cannot simultaneously abut against the two plug picking portions 22, at least one of the stopper walls 20 protrudes toward the connector fitting space 61. The state can prevent further insertion of the irregular plug 50, thereby preventing the incorrect insertion of the irregular plug 5, 100131664 11 201223021 and preventing damage and mis-insertion of the irregular plug 50 and the socket (9). Further, since the support bending portion is formed on #64, if the irregular plug 5〇 is inserted and abuts against the stopper wall 2〇, the load is supported by the support bending portion 72 abutting against the edge portion of the hole, and the irregular plug The load of % hardly acts on the f 64 supporting the rear portion of the curved portion 72. That is, since the load does not act on the entire length of the arm 64, the arm material can ensure a long and manageable state, and the buckling of the arm 64 can be prevented when the load acts on the stopper wall 2G. Therefore, according to the erroneous insertion preventing structure of the connector of the second embodiment, it is possible to reliably prevent the inadvertent insertion of the inconspicuous _% which is not suitable for the socket 6 ,, and at the same time, it is possible to reduce the manpower of the red _ 4 , Operational. The free end portion % of the arm 64 in the socket 60 of the present embodiment constitutes 'the cover portion 74 covers the hole μ which is formed on the upper wall, and the cover portion 74' is disposed on the upper wall of the arm 64. The free end portion 66 of the hole % is covered so that it can prevent a reduction in the shielding performance. An exploded perspective view of a modified example in which the arm 64 is formed independently of the shield case body 62A of the first concealer case 62. In the first shielding device 62, the arm 64 independent of the shielding case body 62A> is turned over by the shielding case body 62A. In this case, 64 is formed by the engagement of the support member 78 to the conductive am θ finding member 78 y. The engaging support member 78 is shaped. 100131664 201223021 The parallel support member side plate portion The arm 64 is formed at the rear portion to be in a plan view shape, and one of the 80 is connected to both ends of the rear connecting plate 82. On board 82. In the support member side plate portion 80, an elastic engagement plate 86 is formed on the side plate portion (10) of the tab member which is stamped into a shape, and the miscellaneous engagement plate 8 is inserted into the locking hole 84 of the shield case body 62A. The regular plug to the connector fitting space 61 is locked by 4G. A locking edge portion 9 is formed in front of the elastic plate 86 of the cutting member side plate (4), and the locking claw portion 88 of the locking edge portion shielding case body 62A is locked. The locking convex portion % is formed on the opposite side (rear end side) of the locking edge portion 90 with the elastic engaging plate (10) interposed therebetween, and the locking convex portion 94 is engaged with the locking recess 92 of the shielding case body 62. The locking (four) 94 is formed into a convex shape by pressing and is locked in a concave shape: a concave portion 92. Further, the substrate connecting portion 96 which protrudes toward the circuit board is suspended from the support member side plate portion 8G. In the present embodiment, the substrate connecting portion % is in the form of a frame sheet, and is suspended from the lower edge of the supporting member side plate portion 8G. The substrate connection portion % is soldered and fixed to the through hole of the circuit board (not shown). For example, in a connector such as a digital camera, since there is a possibility that the multi-function USB is mismatched, it is necessary to provide an erroneous insertion preventing structure that prevents the above. On the other hand, in the connector of a mobile phone or the like, the multi-function USB is mis-fitted, so that no arm is required. As described above, when the arm is required and the arm is not required, since it does not occur, such as to prevent the occurrence of erroneous insertion, 100131664 201223021, for the first shielding case, it is necessary to separately manufacture the shielding body with the arm and not to have The body of the shield shell with arms. On the other hand, in the present embodiment, when the arm 64 is provided separately from the engagement support member 78 of the shield case main body 62A, the shield case main body 62A not including the arm 64 is prepared, and the cover case is attached to the shield case. The engagement of the support member 78 on the body 62 can easily correspond to the change of the arm 64. The shield case body 62A can be made of a common mold, thereby suppressing an increase in manufacturing cost. Further, the present invention is not limited to the above embodiment, and can be appropriately modified, improved, and the like. Further, the material, the shape, the size, the number, the arrangement field, and the like of the respective constituent elements in the above-described embodiments may be any as long as the cost-effective invention is available, and are not limited. Furthermore, the application is based on the Japanese patent application filed on September 3, 2010 (Japanese Patent Application No. 2010-198298) and the patent application filed on July 12, 2011 (Japanese Patent Application No. 2011-154126). The contents are incorporated herein by reference. (Industrial Applicability) As described above, according to the erroneous insertion preventing structure of the connector of the present invention, it is possible to surely prevent erroneous insertion of an irregular plug which is not suitable for the socket, and to prevent damage to the plug and the socket and Misconnected. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a socket according to a first embodiment of the present invention. 100131664 14 201223021 FIG. 2 is a front view of the socket of FIG. 1 as viewed from the plug insertion side. Figure 3 is a side elevational view of the socket of Figure 1. 4 is a top plan view of the socket of FIG. 1. Figure 5 is a cross-sectional view of the socket of Figure 1 taken along the line A-A. Fig. 6 is an enlarged view of a portion B of Fig. 5. Fig. 7 is a perspective view showing a state in which a regular plug and a socket are coupled. Fig. 8 is a cross-sectional view showing the main part of the state in which the plug of the normal plug abuts against the plug of the socket. Fig. 9 is a cross-sectional view showing the main part of a state in which a regular plug and a socket are coupled. Fig. 10 is a perspective view showing a state in which the irregular plug abuts against the stopper wall of the socket. Figure 11 is a cross-sectional view showing the main part of the state in which the irregular plug abuts against the stopper wall of the socket. Fig. 12 is a perspective view of a socket according to a second embodiment of the present invention. Figure 13 is a cross-sectional view showing the arm portion of the first shield case shown in Figure 12 . Fig. 14 is an enlarged view of a main portion of the arm portion shown in Fig. 13. Fig. 15 is an exploded perspective view showing a modification in which the arm is formed independently of the shield case body. Figure 16 is a perspective view of a conventional socket. Figure 17 is a perspective view of the plug in combination with the socket of Figure 16; [Main component symbol description] 10 Socket 12 First connection terminal 100131664 15 Opening 1st shielding case Upper wall arm Stop wall plug Pickup inclined face cover Circuit board regular plug 2nd connection terminal 2nd shield case Unconventional plug 2nd shield Housing socket connector fitting space 1st shielding case upper wall 2 side wall shielding case body arm 16 8 201223021 65 side plate portion 66 free end portion 68 base end portion 70 hole edge portion 72 support bending portion 74 cover portion 78 engaging support member 80 Support member side plate portion 82 rear connecting plate 84 locking hole 86 elastic engaging plate 88 locking claw 90 locking edge portion 92 locking concave portion 94 locking convex portion 96 substrate connecting portion 110 socket 116 blistering housing 118 erroneous insertion preventing guide piece 140 regular plug 146 concealer _ shell 148 recess 100131664 17